Example #1
0
ExpressionNode Multiplication::simplify(ExpressionNode& left, ExpressionNode& right)
{
	// unimplemented
	ExpressionNode newNode(&MULTIPLICATION);
	left.setRight(&right);
	newNode.setFirstChild(&left);
	return newNode;
}
Example #2
0
ExpressionNode Addition::simplify(ExpressionNode& left, ExpressionNode& right)
{
	std::clog << "checkpoint addsimplify" << std::endl;
	
	//simplest case: at least one side is just 0
	if (left.getType() == NUMBER && left.getValue().getInt() == 0)
	{
		return right;
	}
	else if (right.getType() == NUMBER && right.getValue().getInt() == 0)
	{
		return left;
	}
	
	// for each left term: for each right term: try adding
	
	std::stack <ExpressionNode*> leftNodeStack;
	ExpressionNode * currentLeftNode = &left;
	bool leftFinished = false;
	std::stack <ExpressionNode*> rightNodeStack;
	ExpressionNode * currentRightNode = &right;
	bool rightFinished = false;
	ExpressionNode * tempNodePtr;
	ExpressionNode newNode;
	
	while (leftFinished == false)
	{
		std::clog << "looping left" << std::endl;
		
		if (currentLeftNode->getType() == OPERATION && currentLeftNode->getOperation() == &ADDITION)
		{
			
			if (currentLeftNode->getFirstChild() == 0)
			{
				throw ExpressionNode::WrongArityError();
			}
			currentLeftNode = currentLeftNode->getFirstChild();
			leftNodeStack.push(currentLeftNode);
			continue;
		}
		
		// leaf term on left tree: traverse right tree
		while (rightFinished == false)
		{
			std::clog << "looping right" << std::endl;
			
			if (currentRightNode->getType() == OPERATION && currentRightNode->getOperation() == &ADDITION)
			{
				if (currentRightNode->getFirstChild() == 0)
				{
					throw ExpressionNode::WrongArityError();
				}
				currentRightNode = currentRightNode->getFirstChild();
				rightNodeStack.push(currentRightNode);
				continue;
			}
			
			std::clog << "checkpoint addsimplify: before isAddable; " << std::endl;
			// leaf terms on both sides: attempt adding
			if (isAddable(*currentLeftNode, *currentRightNode))
			{
				std::clog << "checkpoint addsimplify: after isAddable; " << std::endl;
				std::clog << *currentLeftNode << " " << *currentRightNode << std::endl;
				std::clog << "add testrun: " << addTerms(*currentLeftNode, *currentRightNode);
				(*currentLeftNode).replace( addTerms(*currentLeftNode, *currentRightNode) );
				std::clog << "checkpoint addsimplify: after addTerms; " << std::endl;
				if (currentRightNode == &right)
				{
					//entire right tree has been assimilated
					return left;
				}
				tempNodePtr = currentRightNode;
				currentRightNode = right.findParentOf(*currentRightNode);
				right.remove(*tempNodePtr);
			} 
			while (true)
			{
				if (rightNodeStack.size() == 0)
				{
					rightFinished = true;
					break;
				}
				currentRightNode = rightNodeStack.top();
				rightNodeStack.pop();
				if (currentRightNode->getRight() != 0)
				{
					currentRightNode = currentRightNode->getRight();
					rightNodeStack.push(currentRightNode);
					break;
				}
			}
		}
		while (true)
		{
			if (leftNodeStack.size() == 0)
			{
				leftFinished = true;
				break;
			}
			currentLeftNode = leftNodeStack.top();
			leftNodeStack.pop();
			if (currentLeftNode->getRight() != 0)
			{
				currentLeftNode = currentLeftNode->getRight();
				leftNodeStack.push(currentLeftNode);
				break;
			}
		}
	}
	//still some terms left on right
	left.setRight(&right);
	newNode.init(&ADDITION, &left);
	return newNode;
}